May 17, 2017

Thought the study seems to present numerous flaws, starting by a lack of common metric to measure the service regularity accross different systems, it tends to comfort some conlusion we have drawn previously in regard of the skytrain system reliability[1].

The study presents this interesting matrice showing the service reliability as a function of the frequency.

…and highlight the fact that a very high frequency system (The Paris subway line 14 has a frequency of one train every ~85s, while the Lille subway has a frequency of one train every ~60s.), requires a very reliable system, something Vancouver could apparently not be able to achieve with its current system [3].

[3] We have already touched some words on the frequency issue, in our subway capacity post, and the great variance in dwelling time observed on the Vancouver network could negatively affect the network reliability.

February 10, 2017

The pictures above could not all refers to the same snow fall day, but every snow day convey the same story: A transit meltdown when the city seems to not spare any energy to clear the bikeway network.

The biais has been noticed by several media outlet, and seems encouraged by some which could have some influence on the city hall culture:

It is possible that local advocates misinterpret how the things are done in Copenhagen, where the bike lanes use to be along the city’s arterials:

The city of Vancouver explains it has 14 “priority” route: in fact, it has 14 route, period: one of them looks like:

Only ~50% of this route cover either a truck route or a frequent transit network route. and the crux of the underwhelming Vancouver snow response lies here: there is virtually no route priotization which leads to high inefficienies in the way snow removal equipment are deployed.

~200km of high priority route to clear in the city limits, covering the Frequent Transit Netwrok, major truck routes, main hospital accesses, and the municipal “Disaster response routes“

the above map covers the frequent transit network, major truck route, hospital access, and the municipal “Disaster response” routes in the city limits: that represents ~200km of streets: 14 snow plowers can clear this entire network, one lane/direction, in ~1 hour (assuming a ~30km/h snow plow average speed): On friday, February 3rd, the total snow accumulation was ~12cm, falling at a rate of less than ~1cm/hr on average, and still the city let much more than 5cm of snow to accumulate on the main arterials such as Granville where the transit service was halted several time during the day…same on 41st and 49th avenue to speak only of few I have been made aware, not discounting the bus 20 was still not able to make south of 54th on February 8th. A similar transit meltdown occured on Monday 6th, total snow precipitation for the day: 7cm!

another problem could be due to the deployment procedure of the snow plowing equipments: plowing takes place if there is more than 5cm of snow accumulation. The 5cm trigger is the same as in Toronto, however the level of water content in snow tend to be 50% higher on the west coast, so that the same level of snow precipitation leads to significantly more slushy condition in Vancouver than in Toronto [1]…. Also, Toronto deploys snow plowing equipment as soon as 2cm of snow accumulates on its expressway networks.

January 25, 2017

Post updated on January 29th, 2017

Ill conceived, since according to Translink [1], The proposed Surrey L line (Guilford, Surrey central newton, titled LRT 4 in the transit study), was among the poorest options Translink has studied for Surrey. An option which will saddle translink with increased operation cost without matching revenue to sustain it, for generation to come [1]. and an option which provide a deeply negative return on investment:

Even a multiple account evaluation (taking account social benefit at large), The return on investment is simply not there! (figure from [1])

Ill conceived because the Surrey LRT approach is in essence local and ignore the regional demand.

Missed opportunity because it will hinder the region to do the right thing to develop alternatives allowing the south Fraser area to become a less car dependent place before it is too late. At the root of this poor decision making is an original sin: A Vancouver centered optic where Surrey is seen as a fringe area in need to be connected to the Expo line; and a ideological bias from the Surrey City council making the streetcar the only answer whatever the question is. This optic ignore the development occurring in the Fraser valley, in Langley and beyond, more noticeably Abbotsford and Chilliwack, and the subsequent regional transportation demand; something we have touched in 2012:

Context and opportunities

A draft Regional transportation demand in the Fraser Valley

The region becoming more vast than Metro-Vancouver, people travel longer distance, with more dispersed destinations, the challenge is then to provide an appealing transit alternative for people in the Valley and the south Fraser area: that means, fast comfortable, and as few as possible transfer toward meaningful destinations.

A LRT running not faster than a bus is not a compelling solution on which to build a regional transportation backbone, but a transportation mode such as the skytrain is not suitable for long distance travel; Also the skytrain technology, designed for very frequent service, become too expensive to maintain as soon as less frequent service is needed [9], so extending the skytrain forever is not a solution able to address the need beyond Langley.

The Interurban vision

It is time for the Vancouver region to explore new paradigms, and reconsider the regional train with an European eye. That is to not entertain solution such as the West Coast Express, but to consider light passenger trains able to achieve a commercial speed in excess of 70km/h (typically means max speed in excess of 140km/h)[13], with comfortable seating: the bombardier Talent, once used for the Ottawa’s O train, is a good starting point to entertain the discussion. below is the kind of rolling stock we have in mind:

Bomabrdier Talent 2, able to run at up to 160km/h and a Alstom Regiolis tram-train, able to run at 100km/h on mainline, and still able to run as a tram on the street (credit wikipedia)

Thought the Fraser valley has the former interurban line, the BCER, this line is not suitable for most of its length: it presents a too meandering horizontal alignment. It is also already heavily used by freight trains in some sections[3], while in other, the tracks need to be completely renewed in order to accommodate off the shelve European train set [17], so there is no clear value at constraining the option on the sole BCER corridor. Below is an example addressing the challenge, with a 70km long rail line (in blue) from Richmond Bridgeport to Abbotsford (connecting with the former BCER for potential extension to Chilliwack) using mainly BC Hydro corridor (and rail rail fo way in Richmond).Part of the line reflects also a vision once expressed by the White Rock Transportation and safety committee [12]

Interurban line, from Richmond Bridgeport to Abbotsford; using BC Hydro corridors on most of its length (the map highlight the BC hydro as well as existing rail corridors)

The advantage of this line is that

it provides a fairly straight line without too short curvatures [4] and an adequate vertical profile [5]

it requires virtually no private land acquisition

It is completely separated from freight trains; a Transport Canada requirement to allow train built on European standard to operate on the line

The expo line then needs to be extended 3km along King George to provide a seamless transfer with the regional train[6].

Fraser crossing in the vicinity of MacAdam creek, in Delta, where the alignment takes advantage of the bluff on the south side, to reduce the approach to a bridge which clearance should be at least as high as the Alex Fraser bridge – new Panamax ship class allows an air draft of up to 58m

To preserve the future, The regional line should be built for European style standard train EMU (such as the Bombardier talent-2). That supposes to build the line to UIC standards allowing speed in excess of 160km/h, ideally 200km/h: that means in particular:

double track platform width of ~13m

no level crossing

Estimated travel time (in mn) between key stations with an express train calling only at the below mentioned station [19]

Abbotsford

Langley

Surrey

Queensborough

Richmond

Abbotsford

15

24

31

42

Langley

15

9

16

27

Surrey

24

9

7

18

Queensborough

31

16

7

11

Richmond

42

27

18

11

cross section of the track platform for the Lyon-Marseille High speed line ( 350km/h max speed) - source (2); 500kv double circuit tubular tower able to to replace a lattice tower if the tower foot print is an issue - source (15)

Numbers suggest such a line could be built at cad$35M/km [7] putting the total cost of the regional line at $2.5Billions (remember that the Brunette interchange alone costs $0.5B). However, the line doesn’t need to be built in one shot, and can be phased, a first phase consisting of the 12km Langley-Surrey section, estimated then at ~$500M.

For this short first section, a tram-train, able to reach 100km/h and to ride the Langley streets could be considered at first [8]. Since it could benefit of a totally segregated infrastructure (in trench) between Langley and Surrey, a 12 mn travel time could be easily reach. (A Translink study [1] suggests such travel time could attract up to 6,000 pphpd in 2041, what is the relevance zone for such a transportation mode)

Cost and benefit

The skytrain extension has been costed at $85M/km (2010)[1] in viaduct and $140/km (2010)underground [11] (all including stations), so that the total cost of the project in its first phase could be keep in the $1B envelope, and still include a BRT lines Surrey 88th-Whiterock, as well as some B line connecting Guilford not only to Surrey central but also to the interurban and Coquitlam.

The closest studied option by Translink was the option titled RRT 1A (skytrain extended to Langley and BRT on KGH and 104th)[1]: our proposed option in its first phase is slightly less appealing on the Langley Surrey section (doens’t go directly to Surrey center, and doesn’t eliminate the skytrain transfer). On the other hand, it still provides similar travel time, between the 2 cities (and Vancouver), and a tram-train option allow a finer coverage of Langley downtown. Subsequent extensions make our proposal of better value.

A Skytrain to Langley , means, the train could run well below capacity (or at very spare frequency, what is not without issues). an extension collecting both the traffic flow coming from the King George corridor, and Langley could make better use of the skytrain capacity

Our proposal makes also a better use of the skytrain capacity (the extension collect ridership from both the Langley Regional train and the KGH BRT). Our proposal offers a shorter BRT route on the KGH branch (due to the skytrain expansion here), and equal on the 104th branch: We can consider our proposal carries all the benefit of the RRT 1A option, at half of the price tag. In any case, it is a much better solution than the one currently imposed by the Mayors’council, which will not benefit to Langley and will be detrimental to White Rock by introducing an additional transfer with no travel time benefit, and which cost has already escalated to a whopping $100M/km

[3] In addition to the operating constraint imposed by the freight trains, Transport canada requirement for passenger train mixing with freight train make such solution a non starter beside commuter train such as the West coast express)

[4] The curvature suggests speed limit of 160 to 200km/h speed between Langley and Surrey, 160km/h around the Nordel Mac Adam Creek section (thought requiring some expropriation), 120-140Km/h, in the approach south of Langley…that is assuming a typically a minimum curve of 1250m for 160km/h; some figure also roughly and intrinsically adopted for the californian HST [10]

[5] French high speed rail tracks have gradient of up to 35/100, and 40/1000 on the german Koln Rhein [2].

[6] In the proposed scheme, the track along King George Highway could be branched before the eponymous station. The later could be retired, and
a new one built.

[7] French high speed line, built on higher standard, are typically build at a cost of cad$35M/km or €22M/km (10% for land acquisition, 65% for civil engineering, and 25% for rail, power and signalling)[16]. However the Fraser crossing could require a specific estimate

[8] Such choice, should not hinder the capacity of the line to run faster train. If electric, the tram-train should then be dual voltage, the main line, equipped with standard 25kv AC60Hz, the street extension in 750V. Similarly the stations should be designed to allow a layered service with tram train calling at local stations, while faster train could call only at main stations.

[9] The skytrain vehicles (and consists) are designed to maximize the throughout of the line, so seating is minimized, and comfort of it is not a priority. The driverless technology allow very high frequency at marginal cost, but it imposes also high “minimal operation” cost, to both maintain and operate the line, making this technology not a prime choice in the current condition.

[13] This tends to be a typical requirement for new regional transit lines in european conurbation. As an example the new subway line planned in Paris area are targetted to have a commercial speed of 55 to 65km/h.

[14] It is interesting to notice that the LRT line in Surrey is costed higher than a french High speed line, the later arguably incurring more extended civil engineering work: it is possibly due to the fact that Surrey LRT construction cost include the relocation of the underground utilities, and the construction method must include important traffic mitigation.

[17] the track renewal cost can be estimated at Cad$5M/km, including electrification, for a single track, and work progress can be as fast as 600m of track renewal/day, this from a similr work done to establish a tram-train in the vicinity of Nantes. This number is in line with the provided by a Leewood report[20] for the Rail for the Valley organization

[19] the numbers assume a average speed line of 140km/h, an average acceleration of 1m/s/s, and a dwelling time of 2.5mn. The 24 mn travel time between Surrey and ABbotsford, can be compared to the 44mn travel time given by [20] between Abbotsford and Surrey Newton using the BCER or the Google estimated 35mn road travel time between Abbotsford (Highway 1#11) and Surrey Central (with clear traffic)

May 25, 2016

3 bus 20 in a row, a typical bus bunching happening on Victoria#54th

Reliability on the route 20 is a huge issue. Its lack of reliability stem essentially of its Hasting and Commercial Drive segment. Those segments are also the most detrimental to the speed of transit in this corridor. both speed and reliability are very signifcant factors affecting both the transit attractiveness and efficiency.

The average bus 20 speed is 14.36km/h [1′, but in practice most of the riders will experiment a significantly lower average speed on the route busiest section. Below is the speed map for the bus 20 on an average weekday.

bus 20 (to Downtown) speed map on a weekday as computed from [1]The horizontal axis represents the time of the day, the vertical axis, the location on the corridor, while the color represents the speed. (see also speed map for the SB direction

July 21, 2015

Some remarks on the report to be presented to the Standing Committee on Planning, Transportation and Environment [2], On July 22.

Bus stop and line of sight at Burrard#Pacific

As mentioned in a previous post’s comment, the COV planners indicated some line of sight involved by the Burrard street concave alignment at Pacific were cause of concern for CMBC toward the implementation of a South Bound bus stop on the South West corner of the intersection. The problem is illustrated below:

due to the concave alignment of Burrard. A bus could need to be positioned at an angle preserving line of sight on incoming traffic, before reentering traffic: that would be an angle similar to the current slip-in lane to not compromise lines of sight

Hindered lines of sight for bus leaving a stop, due to a concave alignment of the street, exist in multiple locations on the Transit bus network. a short list below:

While the line of sight concern are legitimate, they could have been overblown in the case of Burrard bridge. They can be addressed by external safety mirror, as often seen in Europe. Here there is sufficient room to accommodate an articulated bus at an angle preserving the line of sight for a safe pull-out:

A design, where the bus bay is in the alignement of Burrard street North of Pacific [4], bus bay designed in accordance with [3]. The tall cypress is obviously not in the way. A protected bike box with an advanced traffic signal allow EW connection along Pacific

We were admittedly too optimistic to see the City elaborates on the above solution. Instead, The line of sight concerns expressed at the open house, have since been replaced by the concerns on the preservation of a cypress tree which could not have been endangered by a bus bay on the south side.

We tend to see all that as excuses for inaction. Whether not, the restoration of the south bound bus stop on the North West corner of the intersection should have been in order. However, after feedback of the public, the initial proposal to move the South Bound bus stop further north has been given up. Instead, the bus stop will be moved south by half a block (from Burnaby to Drake). It is a step in the right direction, but insufficient: It seems nothing more than paying lip service: Transit accessibility is still much worse than it was in 2009 and before.

Pacifc East West bike connection

Our above proposal integrate them with an island to create a protected bike box, which can be given and advanced signal. the design to be submitted to the council also propose a bike box, but in what seems to be a more clumsy way:

the bike box for thru movement is in a right turn bay! this right turn bay is supposed to have green light while the the thru lane could still be on red (to protect right urning from Burarrd to Pacific East). That creates confusion and place cyclists in an uncomfortable spot

The Suicide prevention barrier

This part was not presented at the open-house, and “popped up” afterward, the reasons why are unclear, since the City is supposed to have engaged with stack-holders ahead of the general public open-houses, where the issue could have been identified. Burrard bridge being such a iconic bridge, its alteration by suicide barriers, which also hinder the view of the bridge span, and affect negatively the user experience, raise some legitimate concerns from heritage groups.

Mapo Bridge, Seoul, Korea, use technology, art and interactivity to reduce suicide rate, without relying on high suicide barrier

Due to this, the request for more consultation seems reasonable. The city could explore alternative to physical barriers. The Mapo bridge in Seoul, Korea, using technology to detect suicide attempt, and then connect victim with help, could be an option to consider, after having a correct assessment of the experience [1]

Overall, The Burrard North end project seems to be a bit rushed.

[1] Many medias, especially in North America, have reported the experience as failure, because the reported “suicide attempt” have increased by a 600% after the introduction of suicide prevention measure. However many observers consider the experience as successful, since the effective number of committed suicide has been reduced by 77% . One can conjecture that distressed people could target Mapo bridge, knowing they get a chance to be recognized as such and get helped. On the Authority side, it also help to locate those distressed people, and provide them with the needed help to prevent suicide in general.

July 3, 2015

extract of the Mayors plan submitted to vote: financial figures have never been updated with the proposed .5% PST tax

The voters gave a big resounding NO to the Mayor’s Transit plan. This plan was a draft which financial figures had never been finalized, what is against the South Coast British Columbia Transportation authority act, and could not have been approved in that form by the Council of Mayors for this very reason. In fact, even with the 0.5% pst increase, it was still not yet fully financed and was not sustainable in the long run [1]. The lack of business case for some proposed services, starting by the Surrey LRT, could have cost so much tax $ in operating subsidies that not only a sunset clause for the tax was ruled out, but a new funding source could have been required before the end of the plan: The voter voted against that unsustainable path, knowing that anyway, there is always a Plan B, as alluded by the Surrey’s mayor.

Beyond the plan and the question on ballot, is the referendum framing. The referendum was asking to approve a Translink budget: In democracy, a budget vote is a confidence vote in the authority in charge of the said budget. Forget the “No” side leaded by Jordan Bateman and the CTF, it is the region’s mayors which have called for Translink audits, Translink reforms…and fired the Translink CEO in the mist of the campaign, clearly putting translink governance at the heart of the Referendum. On the Translink vote of confidence, the Council of mayors largely echoed the Jordan Bateman‘s message: “Translink is broken”, so ditto!

The stunning “No” side victory makes a Translink reform unavoidable. While, its Governance can certainly be improved, that will not rhyme with a better service. What can be done?

The Zurich precedent

In the 70’s, in Zurich, like in Vancouver, the voters have say “NO” to a grand and expensive Transit plan, and still Zurich has became the posterchild of efficient Transit.

Eventually as Vancouver, a “No” vote was not a No vote to Transit. In fact Zurich said “YES” to measures able to improve Transit efficiency, speed and reliability (“Transit first plan”). A Measures such as bus only lanes and signal priority can go a long way to improve service without breaking the bank, and help to build a solid business case for heavier rail investment.

As an example, a newly painted bus lane on Seattle’s Battery street, has allowed to increase bus speed by 20%, and reliability by much more, what makes Transit less expensive to operate (bus driver are paid by the hour, not the mileage) which generated 20% additional ridership, hence increasing revenue: all these decrease the tax burden.

Thanks to the still on-going federal gas tax program, bigger buses, be in the form of bi-articulated buses, like in Zurich, or longer articulated buses like introduced on Los Angeles’ Wilshire Blvd and in countless cities around the world, can also help to address overcrowding while keeping operating cost under control.

All these don’t require as much money as political will from the mayors, whose are responsible for the streets used by buses. Will, which has been sorely missing in the region and especially in the city of Vancouver where bus service is clearly neglected by the current council but where also Translink spend 50% of all its bus budget. That doesn’t need to be.

Translink has also been too nice… for too long. It is time for Translink to be more assertive about its needs to operate efficient transit:

Transit optimization need to be much more aggressive by going beyond shuffling bus around:

City of Vancouver charge organization like car free day, to recover its policing cost…It is time for Translink to do the same and recover the cost of bus disruption involved by street closure from the responsible of those disruptions

We have already exposed many ideas of Transit network optimization on this blog, and we will continue: Those can be a tough sell, but as we have already noticed, period of fiscal constraint are a window of opportunity to introduce network rationalization, and so build a solid fundation toward the expansion of Transit.

In conclusion, the No to the referendum is an opportunity to rationalize our Transit network and to emulate the Zurich model.

June 2, 2015

On June 1st, The city of Vancouver released its plan to upgrade the intersection at the North side of the Burrard bridge [3]:

The revamped interestion feature a Bike lane on the East side of the Burrard bridge, granting access to pedestrian on the east side too, and the removal of the accident prone slip lane

Beside the removal of the accident prone slip lanes, and the reopening to pedestrians of the East side of the bridge deck; granted by a new bike lane; there is little improvement for the cyclists and pedestrians: Many connectivity options are still forbidden, either by law or by design:

In red, the prohibited directional change for cyclists (see bottom of the post for the bus stop suggestion)

Notice that the design allows to do a left hook turn from Burard Northbound, or Pacific Westbound since the intersection presents a Dutch interesection characteristic on its North side

Same could be possible on the South side, albeit at the price to add a traffic signal cycle, to allow unimpeded bike/pedestrian East-West movement on the South side of Pacific. (but what are the priority of the city?)

Alternately, the construction of ramps to allow to use the bridge underpass (lane on the south side of Pacific), could provide a solution if such is possible

Worth also to note that the planters separating the bike lane on Burrard Street would be gone:

Such planters are insulating the bike path too much of its environment, what create a safety hazard at interesection

That said such a wrong step seems to be taken on Pacific

All in all, due to the non addressing of prohibited turns for active travel mode, the proposal looks more as a missed opportunity to improve connectivity for cyclists and pedestrians than a real improvment: in some sort, the whole exercise seems more guided by the ideological desire to remove a lane of traffic on the Burrrad bridge than anything else.

bike lane in Vancouver are typically built at the expense of anyone not cycling

When the West side bike lane has been built in 2009, the southbound bus stop at Pacific#Burrard has been decommissioned: another bus stop has been implemented at Burnaby#Burrard. Especially due to the steep terrain nature in the vicinity [1], that has defacto put the south side of Pacific street out of reach of the Burrard buses, hence the Frequent Transit network, while he Burnaby bus stop is widely redundant with the Davie bus stop in term of coverage:

400m Catchement area of bus stop considering the street grid and terrain elevation change: in green the Davie bus stop coverage. In red, the additional area covered by the Burnaby bus stop. In blue the area not covered any more due to the lost of the Pacific bus stop Southbound.

Far to improve this dire situation, it is suggested to make it worse, by relocating the Burnaby bus stop ever farther away: the new Burnaby bus stop could be a mere 30 meter away of the Davie bus stop!

Why that?

Because the city so far has conceived its bike lane at the expense of Transit. The “legacy” bike lane on most of Burrard looks like below:

The existing bike lane on Burard is sandwiched between general traffic lanes and a bus lane: a less than ideal situation credit photo (2)

An obviously less than ideal pattern, which call for correction: a protected bike lane. That is good, but on the city watch, it is apparently not compatible with a bus stop. Of course it doesn’t need to be…even in Vancouver:

Several ways to address the bike+bus interaction exist, as noticed by Jarret Walker. As him, we prefer a “table” or shared space solutions for the bike lane that alert the cyclist to yield to peds in this situation, as we have seen before:

An example of bike + bus stop inetgration

It looks the city is more leaning toward a floating island concept, which is at least considered for the Burrard#Pacific Northbound bus stop: the important is to see the access to transit to be addressed. What is possible for the North bound bus stops, must certainly be too for the South bound bus stops

In the present case, it looks like the removal of the slip lanes allow for ample room at the south-West intersection to implement a floating island concept with a bus bay (to not impediment traffic) as suggested in the second illustration of this post.

In any case, the lack of connectivity improvement for cyclists and more critically, the absence of consideration for transit, make the city proposal a bad one. On a positive note, those shortcomings are relatively easy to address and we are hopeful to see the proposal modified in a postive direction

[1] a rule of thumb is to consider that 10 meters elevation change is equivalent, be in time or energy, to 100 meters distance on flat (e.g. the Grouse Grind hike is 2.8km long but with an elevation change of 853meter: that is equivalent to a hike of 11.43km (2.9km+ 10*0.853km) on a flat terrain.